posted on 2016-02-20, 06:19authored byGrzegorz Grzela, Ramón Paniagua-Domínguez, Tommy Barten, Yannik Fontana, José A. Sánchez-Gil, Jaime Gómez Rivas
We experimentally demonstrate the directional emission
of polarized
light from single semiconductor nanowires. The directionality of this
emission has been directly determined with Fourier microphotoluminescence
measurements of vertically oriented InP nanowires. Nanowires behave
as efficient optical nanoantennas, with emission characteristics that
are not only given by the material but also by their geometry and
dimensions. By means of finite element simulations, we show that the
radiated power can be enhanced for frequencies and diameters at which
leaky modes in the structure are present. These leaky modes can be
associated to Mie resonances in the cylindrical structure. The radiated
power can be also inhibited at other frequencies or when the coupling
of the emission to the resonances is not favored. We anticipate the
relevance of these results for the development of nanowire photon
sources with optimized efficiency and/or controlled emission by the
geometry.